| New model in OGS2.0 | DPOGS202321 |
|---|---|
| Genomic Position | scaffold490:+ 56720-62015 |
| See gene structure | |
| CDS Length | 1704 |
| Paired RNAseq reads | 726 |
| Single RNAseq reads | 1898 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004988 (6e-110) |
| Best Drosophila hit | CG6178 (5e-107) |
| Best Human hit | acyl-coenzyme A synthetase ACSM3, mitochondrial isoform 1 (6e-31) |
| Best NR hit (blastp) | PREDICTED: similar to CG6178-PA [Nasonia vitripennis] (4e-127) |
| Best NR hit (blastx) | PREDICTED: similar to CG6178-PA [Nasonia vitripennis] (1e-119) |
| GeneOntology terms | GO:0001676 long-chain fatty acid metabolic process GO:0004467 long-chain fatty acid-CoA ligase activity GO:0046949 fatty-acyl-CoA biosynthetic process GO:0045289 luciferin monooxygenase activity GO:0006637 acyl-CoA metabolic process GO:0004321 fatty-acyl-CoA synthase activity |
| InterPro families | IPR000873 AMP-dependent synthetase/ligase IPR020845 AMP-binding, conserved site |
| Orthology group | MCL10224 |
Nucleotide sequence:
ATGGCTGTGTCGATTCATAACAATGTGGTCTCAGGTCCTGAGGAAAGACCTATACCTGCC
CATTTATCCTATGGTCAATTTTTGTTTGATAAATTAAAGGCGGGGGGAAATAAAATCGCG
CAAATAAGTGCGGAGACTGGAGAATCTGTTACTTATCAAAATATTCTCCAGAATAGTGTT
AATCTGGCAGTGGCTCTACAGGAGTTGGGCTTACAGAAGGGTGATGTAGTTTCGCTCAGT
TGTGAAAATCGTTTTGAATTCACCGTTGCCTCTTTAGCCGTAATCTTTGCTGGAGGAGTT
TTATCAACTCTAAATGTTACTTATTCGCCAGGTGAAATTTCCCATGTATTCCAAATCACA
AAGCCCAAGTTTATATTCACGTCGCCGATCACTGCACAGAACATGTATGACTGCAGCAAG
GATCTGACATTTGTGAAGAATTTGATTTTGTTCGGTGAATATGACATTGTACCCGCCGTG
TTCTACAATGATTTAGTCAAGAAACACTGTGATATAGATGATTTCGCATTGGTCGATGTG
AATGGAGCAGAGGATACTGTGGCCGTAATGTGTTCATCGGGAACGACTGGCTTACCAAAG
GGTGTTATGTTAACCCATGTAAATTTCCTCACACTATCCGCTCATATGAAATATTATTTG
GAGACGTCTCAACAGAAAAGGAAACATAATGTAATAACAGCCCTGTCTTTGATCCCTTGG
TTTCATGCTTATGGATTCATTACAACATTAGCCGTGATGTGCCTACACGTAGAGGTTGTG
TTTCTTGTTAGATTCGAAGAGGAACAATTTCTTGAAACGATACAAAAATATAAGATAAAC
ATGACGACAATAGTGCCACCGCTCGCTGTTTTCCTTGCCAAACATCCGTTGGTCTCCAAG
TATGACCTGAGCTCATTGAACGAAATGTGGTGCGGAGCCGCTCCCCTGTCCAAGGAAATA
CAGACGCTTGTCACTAAACGAACTGGTATTGATTTCATCAAGCAAGGTTACGGCCTGACA
GAAGTCACAATGGCATGTTGTGTGGATTTAGTCGGCAGAAGCAAAGCAGGCTCCTGCGGT
ACACCTGCGCCTGGCATGAAGATCAAGGTGATAGATACTGAGAGTGGTAAGAAATTAGGT
CCCAATGAAGAGGGTGAGCTGTGCATTAAGTCGCCTCTCCGCATGAAGGGATATTTGGGT
GATAAAGCATCCGGTGATGCCATGATTGATGAGGAAGGTTATGTTAAGACGGGAGATATT
GGGTACTATGACAAGGAAGGATACTTCTACATTGTTGATAGACTCAAAGAACTCATCAAA
TATAAAGGTTTCCAGAGCAACAAGGAAGGATACTTCTACATTGTTGATAGACTCAAAGAA
CTCATCAAATATAAAGGTTTCCAGGTTGCTCCAGCTGAGTTGGAATCTTTACTGCTGCAG
CACAGTGCAGTGGCGGATTGCGGTGTTGTTGGCAGACCTGATGAATTGGCGGGTGAACTA
CCGGTAGCGTTTGTAGTCAAACAGCCGGAAGCCAATATACAGGAACAGGAAATTATTGAC
TACGTAGCCAAGAAGGTGTCGCCAGCCAAACGTCTACGAGGTGGCGTTATATTTGTTGAC
GAAATACCAAAGAATCAATCAGGTAAAATTCTGAGAAGGGAGCTAAGGAAAATGTTGTCC
GCCAACATTAAAAGCAAGCTATAA
Protein sequence:
MAVSIHNNVVSGPEERPIPAHLSYGQFLFDKLKAGGNKIAQISAETGESVTYQNILQNSV
NLAVALQELGLQKGDVVSLSCENRFEFTVASLAVIFAGGVLSTLNVTYSPGEISHVFQIT
KPKFIFTSPITAQNMYDCSKDLTFVKNLILFGEYDIVPAVFYNDLVKKHCDIDDFALVDV
NGAEDTVAVMCSSGTTGLPKGVMLTHVNFLTLSAHMKYYLETSQQKRKHNVITALSLIPW
FHAYGFITTLAVMCLHVEVVFLVRFEEEQFLETIQKYKINMTTIVPPLAVFLAKHPLVSK
YDLSSLNEMWCGAAPLSKEIQTLVTKRTGIDFIKQGYGLTEVTMACCVDLVGRSKAGSCG
TPAPGMKIKVIDTESGKKLGPNEEGELCIKSPLRMKGYLGDKASGDAMIDEEGYVKTGDI
GYYDKEGYFYIVDRLKELIKYKGFQSNKEGYFYIVDRLKELIKYKGFQVAPAELESLLLQ
HSAVADCGVVGRPDELAGELPVAFVVKQPEANIQEQEIIDYVAKKVSPAKRLRGGVIFVD
EIPKNQSGKILRRELRKMLSANIKSKL